KR102391324B1 - Flow ball wear prevention device - Google Patents

Abstract

The present invention relates to a floating ball wear protection apparatus, in which an inlet is formed to inject a grease as a grease inside a steering device installed in a vehicle is consumed. The floating ball wear protection apparatus of the present invention comprises: a steering case; a floating ball; a floating shaft; a floating cover; a ball fixing member; a case cover; a compression spring; and a grease input member.

Description

Flow ball wear prevention device

The present invention relates to a floating ball wear prevention device, and more particularly, to a floating ball wear prevention device in which an inlet is formed so that the grease can be injected as the grease inside a steering device installed in a vehicle is consumed.

In general, a constant velocity joint (Constant Velocity Joint) is used for a drive shaft of a power transmission device. In the conventional constant velocity joint structure, both ends of the boot seal are inserted into the outer ring of the constant velocity joint and a shaft with a diameter smaller than the outer ring, and tightened by clamping. On the other hand, the inside of the boot seal has a structure filled with grease.

Therefore, the grease filled in the boot seal prevents wear caused when the outer ring and the shaft flow.

However, such a constant velocity joint has a drawback in that it is difficult to replenish the grease and work efficiency is reduced because grease is filled between the outer ring and the boot seal and then the boot seal is fastened with a clamp.

Republic of Korea Patent No. 10-0652840 Republic of Korea Patent No. 10-0850218

The present invention is to provide a configuration in which an inlet into which grease can be put to allow a flow ball to flow smoothly in a steering device is formed, and a spring is compressed as the fastening cover is rotated to increase the fastening force. The purpose.

The present invention is characterized in that it is a flow ball wear prevention device in which an inlet is formed so that the grease can be injected as the grease inside the steering device installed in the vehicle is consumed.

In one embodiment, the floating ball wear prevention device is installed in the steering device of a vehicle, and the steering case is formed to contain the floating ball and grease, and the moving ball is moved to one side of the steering case by the injected grease, and the grease is exhausted. A flow ball formed so as to be able to flow inside the steering case so as to move toward the case cover side, a flow shaft formed on one side of the flow ball to be connected to the steering device and adjusted in multiple directions, and the grease injected into the steering case is the flow shaft. One side is fixed to one side of the steering case so as not to leak out during movement, and the other side is in contact with a flow cover coupled to one side of the flow shaft and one side of the compression spring to move the flow ball by the cushioning action of the compression spring. A ball fixing member formed in close contact with one side of the steering case, a case cover that is formed to be able to be opened and closed by screwing on one side of the steering case, and the ball fixing member are compressed in one direction to increase the coupling force of the case cover to the steering case It is characterized in that it consists of a compression spring formed inside the case cover and a hole for injecting grease into the steering case, and a grease injection member formed on one side of the center of the case cover.

In another embodiment, the flow ball wear prevention device further includes an automatic grease injection unit on one side of the case cover so that the grease is automatically injected, and the automatic grease injection unit is configured to fix the injection pipe holder plate on the case cover. A plurality of mounting fixtures are formed on one side of the case cover, and are formed at regular intervals from the case cover by the mounting fixtures, an injection connector is formed on one side, and a grease injection pipe is formed on the other side. A holding plate support formed in plurality on one side of the injection pipe holder to fix the An injection cylinder formed on one side of the cylinder holder for injection into the interior, an injection plate formed inside the grease injection tube to slide by the injection cylinder, and grease formed on one side of the injection tube holder to contain grease for filling The injection tube, the filling nozzle formed on the outside of the grease injection tube to fill the grease for filling into the grease injection tube, and the grease in the grease injection tube are connected to the grease injection member so that the grease is moved to the steering case by the operation of the injection cylinder It consists of an injection connector formed and a ball touch sensor formed on one side of the steering case to provide a detection signal to the injection cylinder side when the flowing ball is touched, and the floating ball wear prevention device removes the case cover according to the amount of grease consumed. It further includes an automatic cover tightening unit for rotating the steering case side, wherein the cover automatic tightening unit includes a motor rotating means for moving the case cover to the steering case side using a motor; or cylinder means for moving the case cover to the steering case side by using a cylinder; Doedoe installed by selecting any one, the motor rotating means, a rotating tube formed around the outer circumference of the steering case to be rotated on the steering case, and a drive formed around the outer circumference of the rotating tube to be engaged with the motor gear to receive rotational power A side screw thread, a cover side screw thread formed around the inner circumference of the rotary tube so that the case cover can be rotated in a screw manner when the rotary tube is rotated, and one side of the rotary motor to provide the rotary power provided from the rotary motor to the rotary tube side A motor gear connected to the motor shaft, the other side of which is formed in close contact with the screw thread on the driving side, and one side of the rotating tube are inserted to steer so that one side of the rotating tube is fixed and rotated when the rotating tube is rotated by the motor gear when the rotating motor is driven A guide end formed on the outer circumference of the case, a motor support formed on one side of the outer circumference of the steering case to support the rotation motor, a rotation motor formed on the motor support to generate rotational power for rotating the rotating tube, and the disappearance of grease It consists of a pressure sensor formed on one side of the inside of the steering case to sense the pressure generated by the or a moving cylinder formed on one side of the cylinder support to move it in the opposite direction to the steering case, and a sealing guide ring formed by coupling one side to the steering case to prevent grease leakage when the case cover slides, and the sealing guide ring on one side A sealing pad with one side connected to the steering case to prevent grease leakage when the case cover slides, a slide groove formed above the sealing guide ring so that the slide pin can slide, and a slide groove formed to slide along the slide groove It is characterized in that it consists of a slide pin formed on one side of the upper part of the case cover.

As described above, the effect of allowing the ball to be used permanently without damage to the ball is provided by injecting the grease into the grease inlet so that the flowing ball formed in the steering device can smoothly flow.

1a and 1b is a view of the present invention flow ball wear prevention device.
FIG. 2 is a cross-sectional view of FIG. 1 .
3 is a view showing an automatic grease injection unit according to another embodiment of the flow ball wear prevention device.
FIG. 4 is a detailed view of FIG. 3 .
5 is a view showing an automatic cover tightening unit according to another embodiment of the flow ball wear prevention device.
FIG. 6 is a detailed view of FIG. 5 .
7 is a view showing another embodiment of the spring tightening unit for the floating ball wear prevention device.
FIG. 8 is a cross-sectional view of FIG. 7 .

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS [0012] DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS [0010] DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS [0010] Reference is made to the accompanying drawings, which show by way of illustration specific embodiments in which the present invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the present invention. It should be understood that the various embodiments of the present invention are different but need not be mutually exclusive. For example, certain shapes, structures, and characteristics described herein with respect to one embodiment may be implemented in other embodiments without departing from the spirit and scope of the invention. In addition, it should be understood that the location or arrangement of individual components within each disclosed embodiment may be changed without departing from the spirit and scope of the present invention. Accordingly, the detailed description set forth below is not intended to be taken in a limiting sense, and the scope of the present invention, if properly described, is limited only by the appended claims, along with all scope equivalents as those claimed. Like reference numerals in the drawings refer to the same or similar functions throughout the various aspects.

Hereinafter, the present invention will be described in detail with reference to the drawings.

1A and 1B are views of the flow ball wear prevention device 100 of the present invention, and FIG. 2 is a cross-sectional view of FIG. 1 .

As shown in the drawing, the floating ball wear prevention device 100 is characterized in that the inlet is formed so that the grease can be injected as the grease inside the steering device installed in the vehicle is consumed.

The floating ball wear prevention device 100 includes a steering case 110, a floating ball 111, a flow shaft 111a, a flow cover 111b, a ball fixing member 112, a case cover 113, a compression spring ( 114), characterized in that it consists of a grease input member (115).

The steering case 110 is installed in a steering device of a vehicle, and is characterized in that it is formed so that the movable ball 111 and the grease are embedded therein.

The floating ball 111 is moved to one side of the steering case 110 by the injected grease, and is formed to move toward the case cover 113 when the grease is exhausted. The floating ball 111 is the steering case 110 . It is characterized in that it is formed to be movable inside.

The flow shaft 111a is formed to be connected to the steering device, and the flow shaft 111a is formed on one side of the flow ball 111 to be adjusted in multiple directions.

When the flow shaft 111a is adjusted in multiple directions, the flow ball 111 does not generate friction heat by the grease inside the steering case 110 and flows smoothly so that the flow shaft 111a can be adjusted in multiple directions. characterized in that it is formed.

The flow cover 111b is used to smoothly flow when the flow shaft 111a is adjusted in multiple directions. It is formed so as not to leak to the outside when moving to, and the flow cover (111b) is characterized in that one side is fixed to one side of the steering case 110, and the other side is coupled to one side of the flow shaft (111a).

The ball fixing member 112 is in contact with one side of the compression spring 114 and is formed to move the flow ball 111 by the buffer action of the compression spring 114, and the ball fixing member 112 is flowable. It is characterized in that the ball 111 is formed in close contact with one side.

The case cover 113 is characterized in that it is formed so as to be able to open and close the steering case 110 in a screw method on one side.

The case cover 113 is characterized in that the coupling force with the steering case 110 is increased by the compression spring 114 .

The compression spring 114 is formed to increase the coupling force of the case cover 113 to the steering case 110 by pressing and compressing the ball fixing member 112 in one direction, and the compression spring 114 is It is characterized in that the case cover 113 is formed inside.

The grease injection member 115 has a hole for injecting grease into the steering case 110, and is formed on one side of the center of the case cover 113.

FIG. 3 is a view showing an automatic grease injection unit 200 that is another embodiment of the flow ball wear prevention device 100 , and FIG. 4 is a detailed view of FIG. 3 .

As shown in the drawing, the automatic grease injection unit 200 is configured to be further included in the flow ball wear prevention device 100, and the automatic grease injection unit 200 includes a case cover 113 to automatically inject grease. It is characterized in that it is formed on one side.

The automatic grease injection unit 200 includes a mounting fixture 210 , an injection pipe holder plate 211 , a mounting plate support 212 , a cylinder holder plate 213 , an injection cylinder 214 , an injection plate 215 , and a grease It is characterized in that it consists of an injection tube 216 , a filling nozzle 217 , an injection connector 218 , and a ball touch sensor 219 .

The mounting holder 210 is formed to fix the injection pipe holder plate 211 on the case cover 113, and the mounting holder 210 is formed in a plurality on one side of the case cover 113. .

The injection pipe holder plate 211 is formed at a predetermined interval from the case cover 113 by the mounting fixture 210, and the injection pipe holder plate 211 has an injection connector 218 formed on one side, It is characterized in that the grease injection pipe 216 is formed on the other side.

The support plate support 212 is formed to fix the cylinder support plate 213 on the injection pipe support plate 211 , and the support plate support 212 is formed in plurality on one side of the injection pipe support plate 211 . characterized by being

The cylinder mounting plate 213 is formed to support the injection cylinder 214 , and the cylinder mounting plate 213 is formed on one side of the mounting plate support 212 .

The injection cylinder 214 is formed to inject the grease inside the grease injection pipe 216 into the steering case 110, and the injection cylinder 214 is formed on one side of the cylinder mounting plate 213. do it with

The injection plate 215 is formed to slide by the injection cylinder 214 , and the injection plate 215 is formed inside the grease injection pipe 216 .

The grease injection pipe 216 is formed so that the grease for filling is built-in, and the grease injection pipe 216 is formed on one side of the injection pipe holder plate 211 .

The filling nozzle 217 is formed to fill the grease for filling into the grease injection pipe 216 , and the filling nozzle 217 is formed on one side outside the grease injection pipe 216 .

The injection connector 218 is formed so that the grease in the grease injection pipe 216 is moved to the steering case 110 by the operation of the injection cylinder 214 , and the injection connector 218 is connected to the grease injection member 115 . It is characterized in that the connection is formed.

The ball touch sensor 219 is formed to provide a sensing signal to the injection cylinder 214 side when the moving ball 111 is touched, and the ball touch sensor 219 is formed on one side inside the steering case 110 characterized by being

5 is a view showing an automatic cover tightening unit 300 that is another embodiment of the flow ball wear prevention device 100, and FIG. 6 is a detailed view of FIG. 5 .

As shown in the drawing, the cover automatic tightening unit 300 is configured to be further included in the floating ball wear prevention device 100, and the cover automatic tightening unit 300 is configured to remove the case cover 113 according to the amount of grease consumed. It is characterized in that it is rotated toward the steering case 110 .

The automatic cover tightening unit 300 is installed by selecting any one of the motor rotating means 310 and the cylinder means 330, and the motor rotating means 310 uses a motor to steer the case cover 113. It is characterized in that it is moved to the case 110 side.

The motor rotating means 310 includes a rotating tube 311 , a driving side thread 312 , a cover side thread 313 , a motor gear 314 , a guide end 315 , a motor support 316 , and a rotating motor 317 . ), characterized in that it consists of a pressure sensor (318).

The rotation tube 311 is formed to be rotated on the steering case 110 , and the rotation tube 311 is formed around the outside of the steering case 110 .

The driving side thread 312 is formed to be engaged with the motor gear 314 to receive rotational power, and the driving side thread 312 is formed around the outer circumference of the rotating tube 311 .

The cover-side screw thread 313 is formed so that the case cover 113 can be rotated in a screw manner when the rotary tube 311 is rotated, and the cover-side screw thread 313 is rotated around the inner circumference of the rotary tube 311 . characterized in that it is formed.

The motor gear 314 is formed to provide rotational power received from the rotational motor 317 to the rotational tube 311 side, and the motor gear 314 has one side connected to the motor shaft of the rotational motor 317 and , characterized in that the other side is formed in close contact with the driving side screw thread (312).

The guide end 315 has one side of the rotary tube 311 inserted therein to fix one side of the rotary tube 311 when the rotary tube 311 is rotated by the motor gear 314 when the rotary motor 317 is driven. It is formed to rotate, and the guide end 315 is formed around the outside of the steering case 110 .

The motor support 316 is formed to support the rotation motor 317 , and the motor support 316 is formed on one side of the outer circumference of the steering case 110 .

The rotation motor 317 is formed to generate rotational power for rotating the rotation tube 311 , and the rotation motor 317 is formed on the motor support 316 .

The pressure sensor 318 is formed to sense the pressure generated due to the disappearance of the grease, and the pressure sensor 318 is formed on one side inside the steering case 110 .

The cylinder means 330 is characterized in that it moves the case cover 113 toward the steering case 110 using a cylinder.

The cylinder means 330 includes a cylinder support 331 , a movable cylinder 332 , a sealing guide ring 333 , a sealing pad 334 , a slide groove 335 , and a slide pin 336 .

The cylinder support 331 is formed to support the movable cylinder 332 , and the cylinder support 331 is formed on one side of the outer circumference of the steering case 110 .

The moving cylinder 332 is formed to move the case cover 113 toward the steering case 110 or to the opposite direction to the steering case 110, and the moving cylinder 332 is a cylinder support 331 . It is characterized in that it is formed on one side.

The sealing guide ring 333 is formed to prevent leakage of grease when the case cover 113 slides, and the sealing guide ring 333 is characterized in that one side is coupled to the steering case 110 .

The sealing pad 334 is formed to prevent the leakage of grease when the case cover 113 slides to one side of the sealing guide ring 333 , and the sealing pad 334 has one side connected to the steering case 110 . characterized by being

The slide groove 335 is formed so that the slide pin 336 can slide, and the slide groove 335 is formed above the sealing guide ring 333 .

The slide pin 336 is formed to slide along the slide groove 335 , and the slide pin 336 is formed on one side of the upper portion of the case cover 113 .

FIG. 7 is a view showing a spring tightening part 400 that is another embodiment of the floating ball wear prevention device 100, and FIG. 8 is a cross-sectional view of FIG.

As shown in the figure, the spring tightening part 400 is configured to be further included in the floating ball wear prevention device 100, and the spring tightening part 400 is the compression spring 114 and the ball fixing member 112. It is characterized in that it is formed to increase the coupling force between the steering case 110 and the case cover 113 by pushing to the side.

The spring tightening part 400 is characterized in that it consists of a close contact plate 410, a plate guide 411, and a close contact cylinder (412).

The adhesion plate 410 is formed to be in close contact with the compression spring 114, and the adhesion plate 410 is connected to the cylinder shaft of the adhesion cylinder 412 so as to be slidable on the plate guide 411. do.

The plate guide 411 is formed so that the close contact plate 410 slides, and the plate guide 411 is characterized in that a plurality of plate guides 411 are formed inside the case cover 113 .

The close contact cylinder 412 is formed to push the contact plate 410 toward the compression spring 114 or move it to the initial position, and the close contact cylinder 412 is formed in the center of one side of the case cover 113. characterized.

The automatic cover tightening unit 300 or the spring tightening unit 400 is characterized in that any one of the two configurations is selected and installed.

The above-described embodiments are for illustration, and those of ordinary skill in the art to which the above-described embodiments pertain can easily transform into other specific forms without changing the technical idea or essential features of the above-described embodiments. you will understand Therefore, it should be understood that the above-described embodiments are illustrative in all respects and not restrictive. For example, each component described as a single type may be implemented in a dispersed form, and likewise components described as distributed may be implemented in a combined form.

The scope to be protected through this specification is indicated by the claims described below rather than the above detailed description, and should be construed to include all changes or modifications derived from the meaning and scope of the claims and their equivalents. .

100: floating ball wear prevention device
110: steering case 111: floating ball
111a: flow shaft 111b: flow cover
112: ball fixing member 113: case cover
114: compression spring 115: grease input member
200: automatic grease injection part
210: mounting fixture 211: injection pipe holder plate
212: support plate support 213: cylinder plate
214: injection cylinder 215: injection plate
216: grease injection pipe 217: filling nozzle
218: injection connector 219: ball touch sensor
300: cover automatic tightening unit
310: motor rotating means 311: rotating tube
312: driving side thread 313: cover side thread
314: motor gear 315: guide stage
316: motor support 317: rotation motor
318: pressure sensor
330: cylinder means 331: cylinder support
332: moving cylinder 333: sealing guide ring
334: sealing pad 335: slide groove
336: slide pin
400: spring tightening part
410: adhesion plate 411: plate guide
412: close cylinder

Claims (2)

In the flow ball wear prevention device in which an inlet is formed so that the grease can be injected as the grease inside the steering device installed in the vehicle is consumed,
The floating ball wear prevention device,
A steering case that is installed in the steering device of a vehicle and is formed so that a floating ball and grease are embedded therein;
A floating ball that is moved to one side of the steering case by the injected grease, and is formed to be movable inside the steering case so as to move toward the case cover side when the grease is exhausted;
A flow shaft formed on one side of the flow ball to be connected to the steering device and adjusted in multiple directions;
A flow cover having one side fixed to one side of the steering case and the other side coupled to one side of the flow shaft so that the grease injected into the steering case does not flow out when it moves to the flow shaft;
A ball fixing member that is in contact with one side of the compression spring and is formed in close contact with one side of the flow ball to move the flow ball by the buffer action of the compression spring;
A case cover that is formed to be able to open and close by screwing on one side of the steering case;
A compression spring formed inside the case cover to increase the coupling force of the case cover to the steering case by pressing and compressing the ball fixing member in one direction;
A hole for injecting grease into the steering case is formed, and it consists of a grease injection member formed on one side of the center of the case cover,
The floating ball wear prevention device,
It further includes an automatic grease injection unit on one side of the case cover so that the grease is automatically injected,
The grease automatic injection unit,
A mounting holder formed in plurality on one side of the case cover to fix the injection pipe mounting plate on the case cover;
An injection tube holder plate formed at a predetermined distance from the case cover by a mounting fixture, an injection connector is formed on one side, and a grease injection tube is formed on the other side;
A mounting plate support formed in plurality on one side of the injection pipe mounting plate to fix the cylinder mounting plate on the injection pipe mounting plate,
A cylinder support plate formed on one side of the support plate support to support the injection cylinder,
An injection cylinder formed on one side of the cylinder mounting plate to inject the grease inside the grease injection tube into the steering case;
an injection plate formed inside the grease injection tube to slide by the injection cylinder;
A grease injection tube formed on one side of the injection tube mounting plate so that the grease for filling is built-in;
A filling nozzle formed on one side of the outside of the grease injection pipe to fill the grease for filling into the inside of the grease injection pipe;
an injection connector formed to be connected to the grease injection member so that the grease in the grease injection pipe is moved to the steering case by the operation of the injection cylinder;
It consists of a ball touch sensor formed on one side of the steering case to provide a detection signal to the injection cylinder side when the moving ball is touched,
The floating ball wear prevention device,
It further includes an automatic cover tightening unit for rotating the case cover toward the steering case according to the amount of grease consumed,
The cover automatic tightening unit,
a motor rotating means for moving the case cover to the steering case side by using a motor; or
cylinder means for moving the case cover to the steering case side using the cylinder; Choose one of them and install it,
The motor rotating means,
A rotating tube formed around the outside of the steering case so that it can be rotated on the steering case;
A driving-side Nanasan formed around the outer circumference of the rotating tube to engage the motor gear and receive rotational power;
A cover side thread formed around the inner circumference of the rotary tube so that the case cover can be rotated in a screw manner when the rotary tube is rotated;
A motor gear having one side connected to the motor shaft of the rotating motor and the other side closely formed with the driving side screw so as to provide the rotating power provided from the rotating motor to the rotating tube side;
A guide end formed around the outside of the steering case so that one side of the rotary tube is inserted and rotated by fixing one side of the rotary tube when the rotary tube is rotated by the motor gear when the rotary motor is driven;
A motor support formed on one side of the outer circumference of the steering case to support the rotating motor;
A rotating motor formed on the motor support to generate rotational power for rotating the rotating tube;
It consists of a pressure sensor formed on one side of the steering case to sense the pressure generated by the disappearance of the grease.
The cylinder means,
A cylinder support formed on one side of the outer circumference of the steering case to support the moving cylinder;
a moving cylinder formed on one side of the cylinder support to move the case cover to the steering case side or to the opposite side to the steering case;
A sealing guide ring with one side coupled to the steering case to prevent leakage of grease when the case cover slides;
A sealing pad having one side connected to the steering case to prevent grease from leaking when the case cover slides to one side of the sealing guide ring;
A slide groove formed above the sealing guide ring so that the slide pin can slide;
A floating ball abrasion prevention device, characterized in that it consists of a slide pin formed on one side of the upper part of the case cover so as to slide along the slide groove.
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